Investigating Non-Newtonian Multiphase Cutting Transport in an Extended Reach Well

M. Khan, Abinash Barooh, Muhammad Yousuf Khan, Mohammad Sohel Rahman, Ibrahim Hassan, Rashid Hassan
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Abstract

In horizontal drilling, inefficient hole cleaning causes multiple operational issues and increased pressure loss. In-situ measurement of the cutting transport is essential to understand the hydrodynamics and operational parameters required for the effective hole cleaning. The electrical resistance tomography (ERT) is becoming a promising tool in many industrial applications. The purpose of this study was to provide detailed information about the application of non-invasive ERT system to analyze the volume fraction of solids in the presence of non-Newtonian fluid (0.5 wt% Flowzan) in a drilling annulus. The experiments were conducted in a horizontal flow loop system where the annulus section was 240 (6.16 m) inch long contains the inner and outer diameters of 2.5 inch (6.4 cm) and 4.5inches (11.4 cm), respectively. The obtained results suggested that the ERT system could effectively detect the volume fraction of the solids in the presence of non-Newtonian fluid (Flowzan) at different drilling conditions. Results also revealed that with an increase in fluid velocity, the efficient hole cleaning was observed. Moreover, the drill pipe rotation also positively influenced the cutting transport. Therefore, this study will provide the avenue for the industrial application of in situ ERT measurement technique in the multiphase systems, especially in the presence of the non-Newtonian drilling fluids.
大位移井非牛顿多相切削运移研究
在水平钻井中,低效的井眼清洗会导致多种作业问题,并增加压力损失。切割输送的现场测量对于了解有效孔清洗所需的流体动力学和操作参数至关重要。电阻层析成像(ERT)在许多工业应用中正成为一种有前途的工具。本研究的目的是提供有关非侵入性ERT系统应用的详细信息,以分析钻井环空中存在非牛顿流体(0.5 wt% Flowzan)时固体的体积分数。实验在水平流环系统中进行,环空长240 (6.16 m)英寸,内径为2.5英寸(6.4 cm),外径为4.5英寸(11.4 cm)。结果表明,在非牛顿流体(Flowzan)存在的情况下,ERT系统可以在不同的钻井条件下有效检测固体的体积分数。结果还表明,随着流体速度的增加,可以观察到有效的井眼清洗。钻杆旋转对岩屑运移也有正向影响。因此,本研究将为原位ERT测量技术在多相体系中的工业应用提供途径,特别是在存在非牛顿钻井液的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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